ICTQual Level 5 Diploma in Electrical Engineering 

Master Electrical Engineering – Design, Power, Innovate

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ICTQual Level 5 Diploma in Electrical Engineering 

Course Level

Level 5

Course Type

Non-Ofqual

Awarding Body

ICTQual AB

Credits

240

Study Mode

Online

Assessment

Assignment Based

Course Overview

What is this course

The ICTQual Level 5 Diploma in Electrical Engineering is an advanced qualification designed to provide learners with a comprehensive understanding of modern electrical engineering principles, technologies, and applications. Developed in accordance with contemporary industry and academic standards, the programme offers an in-depth exploration of electrical systems, power technologies, control engineering, and the technical methodologies that support complex engineering operations.

The qualification covers a broad range of specialist topics, including electrical circuit analysis, power generation and distribution, electrical machines, control and automation systems, instrumentation, engineering mathematics, and advanced electrical design principles. Through a combination of theoretical study and practical context, learners gain insight into the development, operation, and management of electrical systems within diverse engineering environments.

The programme places strong emphasis on technical precision, innovation, sustainability, and adherence to professional engineering standards. It examines modern developments in electrical technologies and engineering practices, ensuring that the curriculum remains aligned with the evolving requirements of the global engineering sector.

Designed to support advanced academic learning, the ICTQual Level 5 Diploma in Electrical Engineering provides a structured framework for understanding complex electrical engineering concepts and applications. The qualification reflects current industry expectations and offers a robust foundation in the technical, operational, and theoretical aspects of electrical engineering within a rapidly advancing technological landscape.

Course Content

Detailed Curriculum Structure

This qualification, the ICTQual Level 5 Diploma in Electrical Engineering 240 Credits – Two Years, consists of 24 mandatory units.

Year 1 (120 Credits)

  1. Introduction to Electrical Engineering
  2. Engineering Mathematics
  3. Basic Circuit Analysis
  4. Electrical Machines and Transformers
  5. Digital Electronics
  6. Electrical Power Systems Fundamentals
  7. Electromagnetic Principles
  8. Health and Safety in Engineering
  9. Physics for Electrical Engineers
  10. Technical Drawing and CAD for Electrical Systems
  11. Introduction to Renewable Energy Systems
  12. Communication and Professional Skills

Year 2 (120 Credits)

  1. Advanced Circuit Design
  2. Power Electronics
  3. Control Systems Engineering
  4. Electrical Machines and Drives
  5. High Voltage Engineering
  6. Energy Management and Power Distribution
  7. Microcontroller and Microprocessor Systems
  8. Automation and Industrial Control Systems
  9. Instrumentation and Measurement
  10. Electrical System Protection and Relaying
  11. Project Management for Engineers
  12. Capstone Project in Electrical Engineering

Learning Objectives

Below are the learning outcomes for each of the study units in the ICTQual Level 5 Diploma in Electrical Engineering program:

Year 1 (120 Credits)

Introduction to Electrical Engineering

  • Understand the fundamental principles of electrical engineering and their applications.
  • Develop the ability to apply basic electrical concepts to real-world engineering problems.

Engineering Mathematics

  • Solve engineering problems using mathematical techniques and methods.
  • Apply calculus, linear algebra, and differential equations in electrical engineering contexts.

Basic Circuit Analysis

  • Analyze simple electrical circuits using Ohm’s law, Kirchhoff’s laws, and basic circuit theorems.
  • Design and simulate basic electrical circuits to understand their behavior.

Electrical Machines and Transformers

  • Understand the working principles and applications of electrical machines and transformers.
  • Analyze the performance characteristics of transformers and rotating machines.

Digital Electronics

  • Comprehend the fundamentals of digital electronics, including logic gates and binary systems.
  • Design and analyze digital circuits and systems using combinational and sequential logic.

Electrical Power Systems Fundamentals

  • Understand the basic components and operation of electrical power systems.
  • Analyze the transmission and distribution of electrical power in a grid system.

Electromagnetic Principles

  • Apply electromagnetic theory to understand electric and magnetic fields and their interactions.
  • Analyze the behavior of electromagnetic waves and their applications in electrical engineering.

Health and Safety in Engineering

  • Identify potential hazards in an engineering environment and apply safety protocols.
  • Understand legal and ethical responsibilities related to health and safety in engineering practice.

Physics for Electrical Engineers

  • Apply physics principles to solve electrical engineering problems.
  • Understand the key concepts in mechanics, electricity, and magnetism relevant to electrical systems.

Technical Drawing and CAD for Electrical Systems

  • Create and interpret technical drawings for electrical systems using CAD software.
  • Develop design solutions for electrical engineering projects through detailed technical drawings.

Introduction to Renewable Energy Systems

  • Understand the basic principles and types of renewable energy systems.
  • Analyze the potential of renewable energy technologies in electrical engineering applications.

Communication and Professional Skills

  • Develop effective communication skills, both written and verbal, for professional environments.
  • Apply professional and ethical standards in engineering practice and teamwork.

Year 2 (120 Credits)

Advanced Circuit Design

  • Design and analyze complex electrical circuits using advanced techniques.
  • Apply simulation software to model and test circuit designs.

Power Electronics

  • Understand the principles of power electronics and their applications in electrical systems.
  • Design and analyze power electronic circuits for energy conversion and control.

Control Systems Engineering

  • Analyze and design control systems to regulate dynamic processes in electrical engineering.
  • Apply control theories to solve real-world engineering problems.

Electrical Machines and Drives

  • Understand the principles and operation of electrical machines and their drive systems.
  • Design and analyze systems involving electrical motors and drives.

High Voltage Engineering

  • Understand the principles and safety measures involved in high voltage systems.
  • Analyze and design components and systems for high voltage electrical applications.

Energy Management and Power Distribution

  • Understand the principles of energy management and optimize energy usage in power systems.
  • Design and analyze power distribution networks to ensure reliability and efficiency.

Microcontroller and Microprocessor Systems

  • Understand the architecture and operation of microcontrollers and microprocessors.
  • Design and implement systems using microcontroller-based control for electrical applications.

Automation and Industrial Control Systems

  • Understand the principles of industrial automation and control systems.
  • Design, implement, and troubleshoot automated control systems in industrial settings.

Instrumentation and Measurement

  • Understand the principles of instrumentation and measurement techniques for electrical systems.
  • Design and use measurement systems to collect and analyze data for electrical engineering applications.

Electrical System Protection and Relaying

  • Analyze and design protection systems for electrical networks using relays and protective devices.
  • Understand the principles of fault detection and isolation in electrical power systems.

Project Management for Engineers

  • Apply project management techniques to plan, execute, and close electrical engineering projects.
  • Develop the ability to manage engineering teams and resources effectively.

Capstone Project in Electrical Engineering

  • Apply knowledge gained throughout the program to a real-world electrical engineering project.
  • Demonstrate the ability to solve complex engineering problems independently and in teams.

Who Should Attend

Target Audience and Participants

The ICTQual Level 5 Diploma in Electrical Engineering is designed for learners seeking advanced knowledge of electrical engineering systems, technologies, and industry practices.

  • Individuals aiming to deepen their understanding of electrical engineering.
  • Learners interested in advanced electrical systems and technologies.
  • Students seeking knowledge of power generation and distribution systems.
  • Individuals interested in electrical design and engineering applications.
  • Learners wishing to explore automation and control engineering concepts.
  • Professionals seeking to enhance their academic understanding of electrical engineering.
  • Individuals interested in electrical machines and power technologies.
  • Learners looking to develop expertise in electrical infrastructure systems.
  • Students seeking a recognised advanced qualification in electrical engineering.
  • Those interested in modern developments and innovations in electrical technologies.

Career & Learning Benefits

Skills, Knowledge & Opportunities You Will Earn

Gain advanced electrical engineering knowledge, technical expertise, and industry-aligned understanding of modern electrical systems and technologies.

  • Develop in-depth knowledge of electrical engineering principles and applications.
  • Enhance understanding of advanced electrical circuits and power systems.
  • Gain expertise in power generation, transmission, and distribution networks.
  • Build knowledge of electrical machines and industrial applications.
  • Strengthen analytical thinking and complex problem-solving skills.
  • Develop understanding of automation, control systems, and instrumentation.
  • Improve ability to analyse and interpret electrical designs and systems.
  • Gain insight into modern electrical safety standards and regulations.
  • Enhance technical skills in system evaluation and troubleshooting.
  • Build awareness of sustainable and energy-efficient electrical technologies.
  • Develop understanding of engineering mathematics for advanced applications.
  • Strengthen professional communication and technical reporting skills.
  • Gain exposure to emerging trends in electrical engineering technologies.
  • Earn a recognised qualification demonstrating advanced competency.
  • Establish a strong academic foundation for further engineering study and specialization.

Need More Information?

Frequently Asked Questions Explained

Yes. The programme is designed to align with international academic and industry standards, making it relevant for learners across different countries, including the UK.

Yes. The curriculum incorporates real-world engineering scenarios to help learners understand how advanced electrical systems are applied in practice.

Yes. The course includes contemporary topics such as automation, power systems, control technologies, and emerging electrical innovations.

Yes. Electrical safety, regulations, and professional engineering practices are integrated throughout the curriculum.

It enhances learners’ ability to analyse complex electrical systems, apply engineering principles, and develop advanced technical understanding.

Enrollment Criteria

Minimum Eligibility Criteria for Enrollment

  • English skills (reading, writing, communication)
  • Minimum age 18 years
  • Level 4 qualification or equivalent required
  • Relevant electrical engineering experience advantageous

Lock In Your Spot

Get in Touch

+44 2035 764371

+44 7441 396751

info@ictqual.co.uk

www.inspirecollege.co.uk

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